ITQ Talks: Molecular Manipulation of Heterogeneous Electrocatalysis Using Metal-Organic Frameworks – Prof. Idan Hod
Os esperamos en una nueva edición de ITQ Talks.
En esta ocasión contaremos con Prof. Idan Hod quien impartirá la charla “Molecular Manipulation of Heterogeneous Electrocatalysis Using Metal-Organic Frameworks”.
La jornada está prevista para el viernes 7 de febrero de 2025 a las 09:45h en el Salón de Actos del ITQ (UPV-CSIC).
Prof. Idan Hod
Idan Hod received all his degrees from Bar-Ilan University, including B.Sc. in chemistry and computer science, M.Sc. on molecular crystal engineering with Prof. Yitzhak Mastai, and Ph.D. on photo-electrochemistry of quantum dot sensitized solar cells with Prof. Arie Zaban. After a 3-year postdoctoral spell with Prof. Joseph T. Hupp at Northwestern University (Department of Chemistry), IL, USA, he was appointed as a senior faculty member at the Chemistry Department in Ben-Gurion University of the Negev, Israel. His main research interests focus on the development of new concepts for molecular level manipulation of heterogenous catalysts using functional, porous materials and their implementation in (photo)-electrochemical solar fuel generation. A key aspect of his research focuses on studying the exceptional capability of MOFs to precisely tune and manipulate the properties of the catalytically-active site and its surrounding chemical environment, in order to utilize MOF-based systems as a high surface area platform for driving electrocatalytic energy-conversion reactions. Idan’s list of awards includes the American Chemical Society (ACS) physical chemistry division postdoctoral award (2015), Alon fellowship for new faculty members (2018), Israel Vacuum Society (IVS) early career research excellence award (2020), Krill prize for excellence in scientific research (2020), Toronto prize for excellence in research (2023), ICS Excellent Young Scientist Prize (2023), and an ERC starting grant.
Más sobre la ponencia
Molecular Manipulation of Heterogeneous Electrocatalysis Using Metal-Organic Frameworks
- Shimoni,1 A. Ghatak, 1 S. Shankar Golla, 1 S. Mukhopadhyay,1 I. Liberman,1 I. Hod*1
Electrocatalytically driven reactions that produce alternative fuels and chemicals are considered as a useful means to store renewable energy in the form of chemical bonds. in recent years there has been a significant increase in research efforts aiming to develop highly efficient electrocatalysts that are able to drive those reactions. Yet, despite having made significant progress in this field, there is still a need for developing new materials that could function both as active and selective electrocatalysts.
In that respect, Metal–Organic Frameworks (MOFs), are an emerging class of hybrid materials with immense potential in electrochemical catalysis. Yet, to reach a further leap in our understanding of electrocatalytic MOF-based systems, one also needs to consider the well-defined structure and chemical modularity of MOFs as another important virtue for efficient electrocatalysis, as it can be used to fine-tune the immediate chemical environment of the active site, and thus affect its overall catalytic performance. Our group utilizes Metal-Organic Frameworks (MOFs) based materials as a platform for imposing molecular approaches to control and manipulate heterogenous electrocatalytic systems. In this talk, I will present our recent study on electrocatalytic schemes involving MOFs, acting as: a) electroactive unit that incorporates molecular electrocatalysts, or b) non-electroactive MOF-based membranes coated on solid heterogenous catalysts.
